Sensory hair cell development and regeneration: similarities and differences.
Publication Year:
2015
PubMed ID:
25922522
Funding Grants:
Public Summary:
Sensory hair cells aremechanoreceptors of the auditory and vestibular
systems and are crucial for hearing and balance. In adult mammals,
auditory hair cells are unable to regenerate, and damage to these
cells results in permanent hearing loss. By contrast, hair cells in the
chick cochlea and the zebrafish lateral line are able to regenerate,
prompting studies into the signaling pathways, morphogen gradients
and transcription factors that regulate hair cell development and
regeneration in various species. Here, we review these findings
and discuss how various signaling pathways and factors function
to modulate sensory hair cell development and regeneration. By
comparing and contrasting development and regeneration, we also
highlight the utility and limitations of using defined developmental cues
to drive mammalian hair cell regeneration.
Scientific Abstract:
Sensory hair cells are mechanoreceptors of the auditory and vestibular systems and are crucial for hearing and balance. In adult mammals, auditory hair cells are unable to regenerate, and damage to these cells results in permanent hearing loss. By contrast, hair cells in the chick cochlea and the zebrafish lateral line are able to regenerate, prompting studies into the signaling pathways, morphogen gradients and transcription factors that regulate hair cell development and regeneration in various species. Here, we review these findings and discuss how various signaling pathways and factors function to modulate sensory hair cell development and regeneration. By comparing and contrasting development and regeneration, we also highlight the utility and limitations of using defined developmental cues to drive mammalian hair cell regeneration.